AP Physics 2 for TEA PDF

[openstaxalina]

• [x] rename the collection on staging2 "AP Physics 2 for TEA" if it is not named that already
• [x] generate a PDF on the staging2 server
• [x] check the PDF for broken links
• [x] if no broken links, scan the PDF for any major problems or errors
• [x] check the TOC against the book map in this folder
• [x] apply the watermark "Initial Delivery for TEA Review" (Please use the same settings documented in the wiki for watermarks on drafts/samples.)
• [x] upload the PDF to this folder.
• [x] notify Alana, Helene, and Alina when complete

[helenemccarron]

The PDF to TEA is due on Thursday December 15th.

[openstaxalina]

adjusted turnaround time and priority - apologies for the confusion. @lwtchu it is feasible to complete this Wednesday 12/14?

[lwtchu]

Module: 1.8 Links taken out: electric field exerts force on charges, for example, and hence the relevance of Dynamics: Force and Newton's Laws of Motion (http://legacy-staging2.cnx.org/content/m10668/latest/) . The following topics are involved in some or all of the problems labeled “Integrated Concepts”: • Kinematics (http://legacy-staging2.cnx.org/content/m10653/latest/) • Two-Dimensional Kinematics (http://legacy-staging2.cnx.org/content/m10662/latest/) • Dynamics: Force and Newton's Laws of Motion (http://legacy-staging2.cnx.org/content/m10668/latest/) • Uniform Circular Motion and Gravitation (http://legacy-staging2.cnx.org/content/m10681/latest/) • Statics and Torque (http://legacy-staging2.cnx.org/content/m10706/latest/) • Fluid Statics (http://legacy-staging2.cnx.org/content/m10721/latest/) The following worked example illustrates how this strategy is applied to an Integrated Concept problem: Example 1.5 Acceleration of a Charged Drop of Gasoline If steps are not taken to ground a gasoline pump, static electricity can be placed on gasoline when filling your car's tank. Suppose a tiny drop of gasoline has a mass of 4.00×10–15 kg and is given a positive charge of 3.20×10–19 C . (a) Find the weight of the drop. (b) Calculate the electric force on the drop if there is an upward electric field of strength 3.00×105 N/C due to other static electricity in the vicinity. (c) Calculate the drop's acceleration. Strategy To solve an integrated concept problem, we must first identify the physical principles involved and identify the chapters in which they are found. Part (a) of this example asks for weight. This is a topic of dynamics and is defined in Dynamics: Force and Newton's Laws of Motion (http://legacy-staging2.cnx.org/content/m10668/latest/) . Part (b) deals with electric force on a charge, a topic of Electric Charge and Electric Field. Part (c) asks for acceleration, knowing forces and mass. These are part of Newton's laws, also found in Dynamics: Force and Newton's Laws of Motion (http://legacystaging2.cnx.org/content/m10668/latest/) .

Module 2.2 - Recall from Projectile Motion (m10666 (https://legacy-staging2.cnx.org/content/m10666/latest/) ) that a massive projectile launched horizontally (for example, from a cliff) in a uniform downward gravitational field (as we find near the surface of the Earth) will follow a parabolic trajectory downward until it hits the ground, as shown in Figure 2.9(a).

Module 3.7 - Heart function and its four-chamber action are explored in Viscosity and Laminar Flow; Poiseuille's Law (https://legacystaging2. cnx.org/content/m10735/latest/) .

This thin membrane separates electrically neutral fluids having differing concentrations of ions, the most important varieties being Na+ , K+ , and Cl- (these are sodium, potassium, and chlorine ions with single plus or minus charges as indicated). As discussed in Molecular Transport Phenomena: Diffusion, Osmosis, and Related Processes (https://legacystaging2.cnx.org/content/m10739/latest/) , free ions will diffuse from a region of high concentration to one of low concentration. But the cell membrane is semipermeable, meaning

5.11 - the treatment of sound in Oscillatory Motion and Waves (https://legacy-staging2.cnx.org/content/m10778/latest/) ) that absorb and reemit only certain frequencies. Hence, the phenomenon is named nuclear magnetic resonance (NMR).

8.4Such an object, shown in m10901 (https://legacy-staging2.cnx.org/content/m10901/1.3/#Figure 25.16) , is called a corner reflector, since the light bounces from its inside corner.

8.6 unit diopters (D), provided that the focal length is given in meters. That is, 1 D = 1 / m , or 1 m−1 . (Note that this power (optical power, actually) is not the same as power in watts defined in Work, Energy, and Energy Resources (https://legacy-staging2.cnx.org/content/m10688/latest/) .

11.5 All of Work, Energy, and Energy Resources (https://legacy-staging2.cnx.org/ content/m10688/latest/) is devoted to momentum,

12.1 Classical physics is a good approximation of modern physics under conditions first discussed in the The Nature of Science and Physics (https://legacy-staging2.cnx.org/content/m10649/latest/) . Quantum

12.8 topics are involved in some or all of the problems in this section: • Dynamics: Newton’s Laws of Motion (https://legacy-staging2.cnx.org/content/m10675/latest/) • Work, Energy, and Energy Resources (https://legacy-staging2.cnx.org/content/m10688/latest/) • Linear Momentum and Collisions (https://legacy-staging2.cnx.org/content/m10698/latest/) • Heat and Heat Transfer Methods (https://legacy-staging2.cnx.org/content/m10762/latest/) • Electric Potential and Electric Field • Electric Current, Resistance, and Ohm’s Law

..found. Part (a) of this example asks for the momentum of a photon, a topic of the present chapter. Part (b) considers recoil following a collision, a topic of Linear Momentum and Collisions (https://legacy-staging2.cnx.org/content/m10698/latest/) .

13.1 molecules in random thermal motion and provides a microscopic explanation of the gas laws, heat transfer, and thermodynamics (see Introduction to Temperature, Kinetic Theory, and the Gas Laws (https://legacy-staging2.cnx.org/content/m10755/ latest/) and Introduction to Laws of Thermodynamics (https://legacy-staging2.cnx.org/content/m10771/latest/) ). Kinetic theory works so

14.1 This was discussed in detail in Work, Energy, and Energy Resources (https://legacy-staging2.cnx.org/content/m10688/latest/) ,

14.6 discussed in Thermodynamics (https://legacy-staging2.cnx.org/content/m10770/latest/

16.2 As first discussed in Problem-Solving Strategies (https://legacy-staging2.cnx.org/content/m10674/latest/) and

[lwtchu]

I HAS BEEN UPLOAdED